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1)  Lipschitz α
Lipschitz指数α
1.
Based on the feature that signal singular points often appear at the boundary and its singularity is described by Lipschitz α, wavelet transform,because of its automatic zooming property , is applied to signal analysis to detect signal singular points and calculate the singularity degree Lipschitz a at the same time.
根据测量信号在边界处具有奇异点这一特点,以Lipschitz指数α定量刻划信号在奇异点处的奇异程度,利用小波分析的“变焦距”特性分析测量信号,确定奇异点的位置并计算相应的奇异度Lipschitz指数α,最后将α值相等或相近的奇异点顺序连接作为边界。
2)  Lipschitz index
Lipschitz指数
1.
Through wavelet coefficient decomposition of energy count rate and further calculation obtaining various Lipschitz index α.
对能量计数率进行小波系数分解,进一步计算得到各尺度的Lipschitz指数α
2.
Since noise mixing into signal will cause singularity, the size of singularity can be measured by Lipschitz index.
FastICA分离后输出的谐波和噪声信号的幅度发生了变化,本文采用对输入和输出信号归一化的方法很好地解决了这个问题;声带病变和损伤而产生的噪声是一种随机噪声,由于信号中混入噪声后会引起信号的奇异性,奇异性的大小可以用Lipschitz指数来度量。
3)  lipschitz exponent
Lipschitz指数
1.
The relation between Lipschitz exponent of ship magnetic field signal and its velocity;
舰船磁场信号的Lipschitz指数与船速的关系
2.
The singularity can be determined by the local modular maximum line and its Lipschitz exponent,which can be obtained through the multi-scale complex continuous wavelet decomposition.
通过对基桩检测信号进行多尺度一维连续复小波分解,得到局部模极大值线(local maxi-mum line),计算模极大值线对应位置的Lipschitz指数值,从而综合判断信号的奇异点位置。
3.
This paper put forward a method to make use of Lipschitz exponent of differential pressure fluctuation signa.
该文提出了利用压差波动信号的Lipschitz指数来识别流型的方法。
4)  Lipschitz exponents
Lipschitz指数
5)  lipschitz exponent
Lipschitz 指数
1.
A damage index is presented based on the strain mode and CWT,and the damage location is detected by the maximum of the index,by which the relation between the Lipschitz exponent and the damaged degree is discussed.
以结构应变模态信号作为检测指标进行小波变换,通过小波系数模极大值确定损伤区域,得出 Lipschitz 指数与损伤程度的关系。
6)  Lipschitz spectrum entropy
Lipschitz指数熵
补充资料:α,α,α,α',α',α'-六氯对二甲苯
分子式:C8H4Cl6
分子量:312.84
CAS号:68-36-0

性质:白色针状或粉末状结晶。熔点108-110℃。溶于二甲苯、石油醚、乙醇、植物油,不溶于水。无味,有特殊臭味,遇光、碱会缓慢分解而呈酸性。

制备方法:以混二甲苯为原料,先用98%硫酸磺化,使间二甲苯生成间二甲苯磺酸盐。从磺化反应物中分离出含邻、对二甲苯的油层,水洗、干燥,减压蒸馏出邻、对二甲苯。间二甲苯磺酸盐经水解可得副产品间二甲苯。由邻、对二甲苯经氯化即得1,4-双(三氯甲基)苯:在反应锅中投入邻、对二甲苯,再加入过氧化苯甲酰和三乙醇胺。加热到70℃后,在光照射下导入氯气,于70-80℃反应6h,再升温至100-120℃继续反应,至反应液相对密度达到1.560-1.580(65℃),即为反应终点,停止通氯,减压脱除余氯。降温至5℃,过滤,洗涤得粗品,重结晶,活性炭脱色得成品。

用途:抗血吸虫病药物。对肝吸虫病、阿米巴原虫病、疟疾以及肠道线虫有一定疗效。但对神经系统的不良反应较多见,且延迟反应持续较久。

说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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